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The Award database is continually updated throughout the year. As a result, data for FY19 is not expected to be complete until April, 2020.

  1. Sample Preparation Free Consumables for Ultra-Sensitive Chemical and Biological Detection from Complex Environmental and Clinical Matrices Compatible for Paper Spray Ionization Mass Spectrometry

    SBC: Prosolia, Inc.            Topic: A18BT020

    Paper Spray mass spectrometry (PSMS) has been developed and commercialized for analysis of fluid samples by mass spectrometry. PSMS provides advantages over existing analysis techniques by reducing sample preparation needs and incorporating the sample storage and sample introduction to a single consumable device that is disposed after analysis, thus eliminating cross contamination and/or cleaning ...

    STTR Phase I 2019 Department of DefenseArmy
  2. Printable Radar Absorbent Materials/Structures for Soldier Uniforms & Other Army Textiles

    SBC: Luna Innovations Incorporated            Topic: A18BT023

    Portable Advanced Battlefield and Ground surveillance radar can now provide effective detection of small targets, posing challenges for troop movement and stealth missions. Radar absorbent strategies have been achieved in composites and larger textile objects, but effective light-weight solutions for current operational clothing and individual equipment systems such as uniforms, knapsacks and body ...

    STTR Phase I 2019 Department of DefenseArmy
  3. Novel Nanocoating technology for Functional Textile

    SBC: Claros Technologies Inc.            Topic: A18BT024

    Nanoparticles represent an attractive alternative in coating processes due to their functional versatility, including surface, optical, conductive and catalytic properties. However, current processes of coating textile products with nanoparticles results in rapid loss of the nanoparticles during laundering or use, leading to a significant decrease in product durability and functionality and increa ...

    STTR Phase I 2019 Department of DefenseArmy
  4. Optimized Higher Power Microwave Sources

    SBC: XL Scientific, LLC            Topic: N19AT001

    Verus Research and the University of New Mexico (UNM) are pleased to respond to the Navy Phase I STTR solicitation N19A-T001 titled Optimized Higher Power Microwave Sources. Verus Research, in collaboration with UNM, propose to develop a GW-class, S-band, high power microwave (HPM) source to integrate in vehicle and vessel stopping systems. Our integrated approach ensures the objectives for effect ...

    STTR Phase I 2019 Department of DefenseNavy
  5. Optimized Higher Power Microwave Sources

    SBC: Metamagnetics Inc.            Topic: N19AT001

    HPM (high power microwave) weapons could disable vehicles, enable vehicle recovery, and reduce collateral damage. Metamagnetics, in partnership with Professor Jane Lehr (University of New Mexico), and General Atomics propose a completely solid-state HPM system based on their work in Gyromagnetic Nonlinear Transmission Lines (gNLTL) and compact High-Gain Slotted Waveguide Antennas. The system will ...

    STTR Phase I 2019 Department of DefenseNavy
  6. Process to Mitigate Catastrophic Optical Damage to Quantum Cascade Lasers

    SBC: MicroLink Devices            Topic: N19AT004

    Quantum cascade laser (QCL) applications have increased in wide variety of areas such as remote sensing, chemical sensing, and free space communications. In this Phase I STTR, the focus is on the development of high-power Quantum Cascade Lasers (QCLs) with integrated heat sinks for improved output power, power-conversion efficiency, and long-term reliability. This will be accomplished by the devel ...

    STTR Phase I 2019 Department of DefenseNavy
  7. Catastrophic Optical Damage Mitigation in Quantum Cascade Lasers by Facet Disordering

    SBC: N2 Biomedical, LLC            Topic: N19AT004

    Quantum cascade laser optical output power is limited by laser facet catastrophic optical damage (COD). In edge-emitting semiconductor lasers COD is a thermal runaway process wherein the front facet of the laser heats under high power operation. This facet heating reduces the semiconductor bandgap which increases the optical absorption and also increases the electrical injection current in the fac ...

    STTR Phase I 2019 Department of DefenseNavy
  8. Process to Mitigate Catastrophic Optical Damage to Quantum Cascade Lasers

    SBC: Pendar Technologies, LLC            Topic: N19AT004

    In this program, we will develop solutions to optimize QCL fabrication processes, such as facet passivation and high thermal conductivity coatings, that will mitigate the reliability issues for high power QCL applications. In phase I, we will first evaluate all concepts and efforts that have been largely investigated for GaAs based high power diode lasers and transfer the knowledge to InP based QC ...

    STTR Phase I 2019 Department of DefenseNavy
  9. Process to Mitigate Catastrophic Optical Damage to Quantum Cascade Lasers

    SBC: IRGLARE, LLC            Topic: N19AT004

    The development of a catastrophic optical damage model for quantum cascade lasers describing instantaneous laser damage at high optical power levels is proposed. The model will be validated by comparison to experimental data. Based on obtained results, changes to laser design and laser fabrication resulting in an increased damage threshold will be implemented. The work will ultimately result into ...

    STTR Phase I 2019 Department of DefenseNavy
  10. Quantum Cascade Laser Array with Integrated Wavelength Beam Combining

    SBC: Pendar Technologies, LLC            Topic: N19AT005

    Pendar Technologies proposes to develop the next generation of compact, high power quantum cascade laser (QCL) sources with output power exceeding 10 Watts at a wavelength of 4.6 microns. The proposed subsystem will include a DFB QCL array integrated monolithically with power amplifiers, low-loss passive waveguides resulting from ion implantation and optical elements aimed at realizing on-chip wav ...

    STTR Phase I 2019 Department of DefenseNavy

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